Safety confirmation system, mobile terminal for use in safety confirmation system, and safety confirmation method

ABSTRACT

A safety confirmation system includes a mobile terminal that receives early disaster information, a center apparatus that manages a safety status of a user of the mobile terminal, and a map server that provides map information. The mobile terminal holds destination information and automatically acquires current location information upon receiving the early disaster information. The mobile terminal automatically transmits the current location information to the center apparatus and the map server, and automatically transmits the destination information to the map server. The center apparatus receives the current location information transmitted from the mobile terminal. The map server searches for a return route from the current location to a destination, generates map information including the return route, and transmits the map information to the mobile terminal. The mobile terminal receives and stores the map information including the return route and displays the map information.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a safety confirmation system forconfirming safety of a user based on current location information of amobile terminal and, more particularly, to a safety confirmation systemand a safety confirmation method utilizing an early disaster information(or disaster quick report) delivery service for the mobile terminal. Thepresent invention further relates to a mobile terminal for use in thesafety confirmation system and a computer program implemented in themobile terminal.

2. Description of Related Art

It is very important to confirm safety of family members or friendsafter occurrence of a disaster such as an earthquake, and in recentyears, a system that uses a mobile terminal to confirm the safety isproposed.

For example, Japanese Patent Application Laid-Open No. 2010-087683describes the following system. A mobile terminal transmits a disasterreception signal to a center apparatus upon receiving early disasterinformation, and the center apparatus confirms presence/absence of amovement of the mobile terminal based on current location information ofthe mobile terminal upon receiving the disaster reception signal fromthe mobile terminal and determines that a user of the mobile terminal isin an emergency state when the movement of the mobile terminal cannot beconfirmed. In this system, the user of the mobile terminal inputs asafety status indicating whether the user is safe or not and transmit asafety confirmation signal from the mobile terminal, whereby the safetystatus of the user is determined.

Further, Japanese Patent Application Laid-Open Publication No.2010-263562 proposes a system in which safety information is shared byan information-sharing group upon occurrence of a disaster. In thissystem, when a disaster occurs, a disaster information management serverdelivers disaster information indicating disaster areas, evacuationarea, and the like. Upon receiving the disaster information, a mobileterminal uses a GPS function to create terminal location information,determines a safety status of a user of the mobile terminal based on thedisaster information and terminal location information, creates safetyinformation indicating the safety status of the user, and transmits thesafety information and the terminal location information to anothermobile terminal previously registered in the same information-sharinggroup.

Most people put priority on ensuring their safety during and immediatelyafter occurrence of an earthquake and therefore they fail to make a moveto conform the safety of their family members or friends. On the otherhand, after elapse of a certain time from the end of the earthquake,most people start calling or emailing for the safety confirmation, andthus mobile-service providers previously shut down telephone lines orsignificantly restrict the number of available lines so as to preventtheir lines from being flooded. It is said that the above certain timeis about ten minutes. Thus, it is not actually possible to make thesafety confirmation by using the telephone lines after elapse of aboutten minutes after the end of the earthquake.

The systems described in Japanese Patent Application Laid-OpenPublication Nos. 2010-087683 and 2010-263562 can confirm the safety ofusers of the mobile terminals but fail to assist actions after thedisaster. For example, immediately after a big earthquake, power outage,fire, water pipe explosion, road cave-in, sediment disaster, and/or thelike may occur to cause a traffic jam, making it difficult for thepeople to return home when they have been involved in the disaster at aplace away from home. Train services are halted for a long time, andbuses and taxis are stuck in traffic jams, so that movement of thepeople is significantly restricted. It follows that the people areforced to walk home or to their offices.

However, in most cases, many people do not grasp how to return home orto the offices from where they are now, and they may be at a loss in anunexpected fashion. Even if a direction toward the destination isroughly known, it is unexpectedly difficult to get to the destinationthrough roads that have never been used before. As a result, it may takea long time to get home due to going wrong way and, in the worst case,they cannot get home before the day is done. Further, it can be imaginedthat they may get overtired and give up returning home.

Further, there is recently known a web service that acquires currentlocation information using a GPS function of a mobile phone and displayson a map a shortest path to a predetermined destination from the currentlocation. However, in the situation where the telephone lines are shutdown or significantly restricted, such a service cannot be provided.

SUMMARY

The present invention has been made to solve the above problems, and anobject thereof is to provide a safety confirmation system and a safetyconfirmation method capable of assisting a user of a mobile terminal toreturn home as well as providing safety confirmation. Another object ofthe present invention is to provide a mobile terminal suitably used inthe safety confirmation system and a computer program to be implementedin the mobile terminal.

To solve the above problems, according to an aspect of the presentinvention, there is provided a safety confirmation system including: amobile terminal that receives early disaster information; a centerapparatus that manages a safety status of a user of the mobile terminal;and a map server that provides map information. The mobile terminalincludes: a destination information holding section that holdsdestination information; a current location information acquisitionsection that automatically acquires current location information uponreceiving the early disaster information; a location informationtransmission section that automatically transmits the current locationinformation to the center apparatus and the map server, as well asautomatically transmits the destination information to the map server; amap information acquisition section that receives and stores mapinformation including a return route from a current location to adestination; and a display section that displays the map information.The center apparatus includes a location information reception sectionthat receives the current location information transmitted from themobile terminal. The map server includes: a return route search sectionthat searches for a return route from the current location to adestination based on the current location information and destinationinformation; a map information generation section that generates the mapinformation including the return route; and a map informationtransmission section that transmits the map information to the mobileterminal.

According to the present invention, it is possible to provide a mapincluding the return route from the current location to a predetermineddestination by using the current location information for safetyconfirmation. This assists a return of the user of the mobile terminalto his or her home or office. Particularly, in the present invention,the mobile terminal transmits the current location information andreceives the map information automatically, i.e., immediately afterreceiving the early disaster information without intervention ofoperation of the user, so that minimum required processing can becompleted before mobile phone lines become busy, thereby increasingreliability of the safety confirmation system.

In the present invention, it is preferable that a plurality ofdestinations is registered in advance in the mobile terminal. In thiscase, it is preferable that the plurality of destinations include firstand second destinations, that the mobile terminal transmits the currentlocation information and the first and second destinations to the mapserver, and that the map server transmits to the mobile terminal firstmap information including a return route from the current location tothe first destination and second map information including a returnroute from the current location to the second destination. Thisconfiguration allows acquisition of both the return routes to, e.g., ahome and an office, increasing convenience. Further, giving prioritiesto the destinations so as to transmit a higher priority destinationallows a highly reliable system to be provided.

In the present invention, it is preferable that the mobile terminalselects one of the plurality of destinations that is closest to thecurrent location and transmits the destination information of theselected destination to the map server. This configuration allowsadequate map information to be provided according to a place at whichthe user of the mobile terminal is involved in a disaster, therebyproviding a highly convenient system.

In the present invention, it is preferable that the center apparatusfurther includes a location information transmission section thatautomatically transmits, upon receiving the current location informationfrom the mobile terminal, the current location information to anothermobile terminal. This configuration allows immediate notification of thecurrent location of the user of the mobile terminal at which he or sheis present upon occurrence of a disaster to specified persons such asfamily members, thereby providing a highly convenient system.

In the present invention, it is preferable that the mobile terminalfurther includes a safety confirmation information input section thatreceives an input of safety confirmation information after automaticallytransmitting the current location information and a safety confirmationinformation transmission section that transmits the safety confirmationinformation and that the center apparatus further includes a safetyconfirmation information reception section that receives the safetyconfirmation information and a safety confirmation informationmanagement section that manages the safety confirmation information.Acquisition timings of the current location information and safetyconfirmation information are separated from each other so as topreferentially collect the current location information, preventing theuser of the mobile terminal from being lost completely. Further, thesafety confirmation information is input and transmitted by operation ofthe user of the mobile terminal, increasing reliability of the safetyconfirmation information.

In the present invention, it is preferable that the center apparatusautomatically transmits, upon receiving the safety confirmationinformation from the mobile terminal, the safety confirmationinformation to the another mobile terminal. This configuration allowsimmediate notification of a safety status of the user of the mobilephone upon occurrence of a disaster to specified persons such as familymembers, thereby providing a highly convenient system.

The above problems of the present invention can also be solved by amobile terminal including: an early disaster information receptionsection that receives an early disaster information; a destinationinformation holding section that holds destination information; acurrent location information acquisition section that automaticallyacquires current location information upon receiving the early disasterinformation; a location information transmission section thatautomatically transmits the current location information to a centerapparatus and a map server, as well as automatically transmits thedestination information to the map server; a map information acquisitionsection that receives and stores map information including a returnroute from a current location to a predetermined destination; and adisplay section that displays the map information.

It is preferable that the mobile terminal according to the presentinvention further includes: a safety confirmation information inputsection that receives an input of safety confirmation information afterautomatically transmitting the current location information; and asafety confirmation information transmission section that transmits thesafety confirmation information to the center apparatus. Acquisitiontimings of the current location information and safety confirmationinformation are separated from each other so as to preferentiallycollect the current location information, preventing the user of themobile terminal from being lost completely. Further, the safetyconfirmation information is input and transmitted by operation of theuser of the mobile terminal, increasing reliability of the safetyconfirmation information.

The above problems of the present invention can be solved by a safetyconfirmation method executed by a mobile terminal having an earlydisaster information reception function and a location informationacquisition function, the method including the steps of: receiving aninput of destination information; automatically acquiring currentlocation information upon receiving the early disaster information;automatically transmitting the current location information to a centerapparatus and a map server, as well as automatically transmitting thedestination information to the map server; receiving and storing mapinformation including a return route from a current location to apredetermined destination; and displaying the map information.

It is preferable that the safety confirmation method according to thepresent invention executed by the mobile terminal further includes thesteps of: receiving an input of safety confirmation information afterautomatically transmitting the current location information; andtransmitting the safety confirmation information to the centerapparatus. Acquisition timings of the current location information andsafety confirmation information are separated from each other so as topreferentially collect the current location information, preventing theuser of the mobile terminal from being lost completely. Further, thesafety confirmation information is input and transmitted by operation ofthe user of the mobile terminal, increasing reliability of the safetyconfirmation information.

As described above, according to the present invention, a safetyconfirmation system and a safety confirmation method capable ofassisting a user of a mobile terminal to return home as well asproviding safety confirmation can be provided. Further, according to thepresent invention, a mobile terminal achieving the above safetyconfirmation system and a computer program to be implemented in themobile terminal can be provided.

BRIEF DESCRIPTION OF THE DRAWINGS

The above and other features and advantages of the present inventionwill be more apparent from the following description of certainpreferred embodiments taken in conjunction with the accompanyingdrawings, in which:

FIG. 1 is an exemplary view illustrating a configuration of a safetyconfirmation system according to a preferred embodiment of the presentinvention;

FIG. 2 is a block diagram illustrating a hardware configuration of themobile terminal;

FIG. 3 is an exemplary view illustrating a part of the computer programimplemented in the mobile terminal;

FIG. 4 is a functional block diagram of the mobile terminal;

FIG. 5 is a functional block diagram of the center apparatus;

FIG. 6 is a view illustrating an example of a configuration of thedatabase of the center apparatus; and

FIG. 7 is a flowchart showing an operation of the safety confirmationsystem.

DETAILED DESCRIPTION OF THE EMBODIMENTS

A preferred embodiment of the present invention will be described indetail hereinafter with reference to the accompanying drawings.

FIG. 1 is an exemplary view illustrating a configuration of a safetyconfirmation system according to a preferred embodiment of the presentinvention.

As illustrated in FIG. 1, a safety confirmation system 10 according tothe present embodiment includes a mobile terminal 11 owned by a user, adisaster information delivery apparatus 12 that delivers an emergencyearthquake alert (an earthquake early warning) to the mobile terminal11, a center apparatus 13 that manages a safety status of the user, anda map server 14 that creates map information. The mobile terminal 11 isconnected to a public communication line (public telephone network) 16through a base station 15, and the public communication line 16 isconnected to the Internet 17. The disaster information deliveryapparatus 12, the center apparatus 13, and the map server 14 areconnected to the Internet 17. The mobile terminal 18 serves as anotification destination (e.g., user's home or office) of safetyinformation of the user of the mobile terminal 11. A personal computer19 is a terminal apparatus used for confirming the safety information ofthe user of the mobile terminal 11 through the Internet 17.

The mobile terminal 11 is a communication terminal (e.g., mobile phone)having a wireless communication function. In addition to thenarrowly-defined “mobile phone”, a smartphone, a PDA, a personalcomputer, a navigation device, or the like may be adopted as the mobileterminal 11. The mobile terminal 11 receives the emergency earthquakealert from the disaster information delivery apparatus 12, prompts theuser to input safety confirmation information, and notifies the centerapparatus 13 of the safety confirmation information.

The mobile terminal 11 receives a GPS signal from a GPS satellite 20,calculates current location information (longitude/latitudeinformation), and transmitting the current location information to thecenter apparatus 13. The current location information is not limited tothat acquired only by using the GPS signal. For example, by furtherusing location information of a base station, location information of awireless LAN, and the like, accuracy of the current location informationcan be increased.

The disaster information delivery apparatus 12 is a computer systemmanaged by a carrier that provides a disaster information deliveryservice. When an earthquake occurs, the disaster information deliveryapparatus 12 receives information such as earthquake epicenter andmagnitude analyzed by an organization such as Japan MeteorologicalAgency and delivers the emergency earthquake alert to the mobileterminal 11.

The center apparatus 13 is a computer system managed by a carrier thatprovides a safety confirmation service. The center apparatus 13 receivesthe current location information transmitted from the mobile terminal 11and registers a current location of the mobile terminal 11 and atransmission time (or reception time) of the current locationinformation in a database 13 a.

A destination which is a place to which the user goes at the disastertime is registered for each user in the mobile terminal 11. The userpreviously registers an address of the destination when using the safetyconfirmation service. The destination is generally his or her home oroffice; however, it is not limited to this, any place may be set as thedestination. Upon receiving the current location information, the mobileterminal 11 transmits to the map server 14 destination informationrelated to the destination of the user together with the currentlocation information.

The map server 14 is a computer system managed by a carrier thatprovides a map service. The map service may be provided by the samecarrier that provides the safety confirmation service. Upon receivingthe current location information and destination information from themobile terminal 11, the map server 14 creates the map informationincluding a route from the current location to the destination and sendsthe map information back to the mobile terminal 11.

FIG. 2 is a block diagram illustrating a hardware configuration of themobile terminal 11.

As illustrated in FIG. 2, the mobile terminal 11 includes an antenna 21,a wireless communication section 22 connected to the antenna 21, a GPSantenna 23, a GPS receiver 24 connected to the GPS antenna 23, a datainput section 25 such as a keypad or a touch screen, a memory 26 thatstores data or a computer program, a display 27 such as an LCD, aspeaker 28, a microphone 29, a camera 30, a vibrator 31 that generatesvibration, and a system controller 32 that controls the individualcomponents.

The system controller 32 operates according to a computer program(software), whereby various functions of the mobile terminal 11 arerealized. Well-known functions of the mobile terminal 11 include, forexample, a voice communication function, an e-mailing function, a camerafunction, and a web-browsing function. Although details will be descriedlater, the following functions are realized in the mobile terminal 11according to the present embodiment: a location information acquisitionfunction of receiving the GPS signal by turning ON a GPS reception modeupon receiving the emergency earthquake alert to acquire the currentlocation information; a location information transmission function oftransmitting the current location information to the center apparatus13, a map information acquisition function of receiving and storing themap information transmitted from the center apparatus 13, a map displayfunction of displaying the map information, and the like.

FIG. 3 is an exemplary view illustrating a part of the computer programimplemented in the mobile terminal 11.

As illustrated in FIG. 3, there are installed in the mobile terminal 11a destination setting program 34, a location information transmissionprogram 35, a map information reception program 36, a safetyconfirmation program 37, and a map display program 38 as applicationprograms for allowing the mobile terminal 11 to function as a safetyconfirmation terminal. Preferably, these programs are provided as onepackage program 33 and installed at a time. The software may bepre-installed before shipping or may be downloaded and installed by theuser when he or she accesses the service.

The destination setting program 34, which is used when an initialsetting or setting change is made, receives an input of the destinationand holds the destination in the memory 26.

The location information transmission program 35 operates in abackground and always monitors a receiving the emergency earthquakealert. The map information reception program 36 receives an instructionfrom the location information transmission program 35 to start itsoperation and receives the map information transmitted from the mapserver 14. The safety confirmation program 37 also receives aninstruction from the location information transmission program 35 tostart its operation, receives an input of the safety confirmationinformation, and transmits the input safety confirmation information.

A plurality of the destinations may be registered in the mobile terminal11. For example, a home and an office of the user can be registered asfirst and second destinations, respectively. In this case, the locationinformation transmission program 35 reads out the two destinations fromthe memory 26 and transmits the current location information and twodestination information to the map server 14. Depending on a protocolbetween the mobile terminal 11 and map server 14, the current locationinformation and two kinds of destination information may be transmittedsimultaneously, or a combination of the current location information andthe first destination information may be transmitted first, followed bya combination of the current location information and the seconddestination information.

Further, in a case where the plurality of destinations are registered asdescribed above, one destination may automatically be selected from theplurality of destinations according to a place at the user has beeninvolved in a disaster. This allows the destination to be switchedbetween when being involved in the disaster at Tokyo and when beinginvolved in the disaster at Osaka. In this case, a destination closestto the place at the user has been involved in the disaster is selected.

The destination may be, e.g., a temporary accommodation at a traveldestination or a business trip destination. Such a destination is set asa third destination separately from the first and second destinations.The destination may be set by the user himself or herself directlyinputting the destination or may be set utilizing information registeredin a schedule database on the Internet. For example, assuming thatinformation indicating that the user will stay at “Okinawa Hotel” on“May 5th” is registered in the schedule database, the locationinformation of “Okinawa Hotel” is temporarily registered in associationwith the information of the schedule database as a limited destinationon “May 5th”.

The map display program 38 is not executed until the user activates it.Upon activation of the map display program 38, the map informationincluding a return route to the destination (home, etc.) is displayed onthe display 27 of the mobile terminal 11 in a case where the mobileterminal 11 has received the map information from the map server 14.

FIG. 4 is a functional block diagram of the mobile terminal 11.

As illustrated in FIG. 4, the mobile terminal 11 functionally includesan early disaster information reception section 41A, a current locationinformation acquisition section 41B, a location information transmissionsection 41C, a map information acquisition section 42A, a displaysection 42B, a safety confirmation information input section 43A, and asafety confirmation information transmission section 43B. The earlydisaster information reception section 41A receives early disasterinformation. The current location information acquisition section 41Bautomatically acquires the current location information at a time whenthe early disaster information reception section 41A has received theearly disaster information. The location information transmissionsection 41C automatically transmits the current location information tothe center apparatus 13 and the map server 14, as well as automaticallytransmits the current location information and the destinationinformation to the map server 14. The map information acquisitionsection 42A receives and stores the map information including a returnroute from the current location to the destination. The display section42B displays the map information. The safety confirmation informationinput section 43A receives an input of the safety confirmationinformation after the transmission of the current location information.The safety confirmation information transmission section 43B transmitsthe safety confirmation information to the center apparatus 13. Inaddition to the above, the mobile terminal 11 includes typical functionssuch as a voice communication section 44A, an e-mailtransmission/reception section 44B, a camera section 44C, and anInternet connection section 44D.

The above functional blocks are realized by cooperation between thehardware of the mobile terminal 11 illustrated in FIG. 2 and theabove-described software. More specifically, the early disasterinformation reception section 41A, the current location informationacquisition section 41B, and the location information transmissionsection 41C are realized by cooperation between the hardware and thelocation information transmission program 35. The map informationacquisition section 42A and the display section 42B are realized bycooperation among the hardware, the map information reception program36, and the map display program 38. The safety confirmation informationinput section 43A and the safety confirmation information transmissionsection 43B are realized by cooperation between the hardware and thesafety confirmation program 37.

FIG. 5 is a functional block diagram of the center apparatus 13.

As illustrated in FIG. 5, the center apparatus 13 includes a locationinformation reception section 45A that receives the current locationinformation transmitted from the mobile terminal 11 and a locationinformation transfer section 45B that transfers the current locationinformation to another mobile terminal 18. The center apparatus 13further includes the database 13 a. The current location information isregistered in the database 13 a upon occurrence of the earthquake. Thatis, a field of the current location information is null before theoccurrence of the earthquake.

FIG. 6 is a view illustrating an example of a configuration of thedatabase 13 a of the center apparatus 13.

As illustrated in FIG. 6, the database 13 a includes a user table 51 anda contact table 52. Each record of the user table 51 includes fields of“user ID” 51 a, “user attribute information” 51 b, “current locationinformation” 51 c, “safety confirmation information” 51 d, and the like.Each record of the contact table 52 includes fields of “contact ID” 52a, “user ID” 52 b, “contact name” 52 c, “e-mail address” 52 d, and thelike.

The “user ID” 51 a is a main key of the user table 51. The “userattribute information” 51 b is information such as user's name, homeaddress, business address, mobile number, e-mail address and includes aplurality of fields. The “current location information” 51 c and “safetyconfirmation information” 51 d are each a field in which the currentlocation information to be transmitted from the mobile terminal 11 uponoccurrence of the earthquake is registered. Thus, the fields of the“current location information” 51 c and “safety confirmationinformation” 51 d are each null before the occurrence of the earthquake.

The “contact ID” 52 a is a main key of the contact table 52. The “userID” 52 b is used for association with respective records of the usertable 51. In the present embodiment, the user can register a pluralityof contact points and thus the records of the user table 51 and contacttable 52 have a one-to-multiple relationship. The “contact name” 52 c isa field in which a name of an owner of an e-mail address and the like isregistered. The “e-mail address” 52 d is a field in which the e-mailaddress of a person to whom the user of the mobile terminal 11 wants totransmit the current location information and the safety confirmationinformation is registered.

Next, with reference to a flowchart of FIG. 7, operation of the safetyconfirmation system 10 will be described in detail.

As shown in FIG. 7, when an earthquake has occurred, the disasterinformation delivery apparatus 12 delivers the emergency earthquakealert and whereby the mobile terminal 11 within a disaster area receivesthe emergency earthquake alert (step S101).

Upon receiving the emergency earthquake alert, the mobile terminal 11acquires the GPS signal with the reception of the emergency earthquakealert as a trigger (step S102) and transmits the GPS signal to thecenter apparatus 13 as the current location information (step S103).Further, the mobile terminal 11 transmits the current locationinformation and the destination information to the map server 14. A timerequired from reception of the emergency earthquake alert totransmission of the current location information and the destinationinformation is very short, so that the mobile terminal 11 can transmitthe current location information before the communication lines becomebusy.

Upon receiving the current location information and destinationinformation, from the mobile terminal 11, the map server 14 searches fora shortest path from the current location to the destination andgenerates the map information including the shortest path (step S105).As described above, the map indicates the current location and thedestination and highlights the shortest path from the current locationto the destination (step S106). The map server 14 sends the mapinformation back to the mobile terminal 11.

The center apparatus 13 transmits the current location information ofthe user to another mobile terminal 18 (step S107). Although the currentlocation information to be transmitted at this time only includes thecurrent location of the user of the mobile terminal 11, a user of themobile terminal 18 can grasp the current location of the user of themobile terminal 11 by using a given map program installed in the mobileterminal 18 or an external map service.

A time required from reception of the emergency earthquake alert toreception of the map information is very short, so that the mobileterminal 11 can transmit the map information before (within five minutesfrom the occurrence of the earthquake) the communication lines becomebusy.

Upon receiving the map information, the mobile terminal stores the mapinformation, and displays the map information on a screen of the mobileterminal 11 in response to the request of the user (steps S108 andS109). The map information is forcibly loaded into the mobile terminal11 and thus the user cannot access the map server 14 and download themap information at his or her convenience. When the user operates themobile terminal 11 to instruct display of the map information, the mapinformation is displayed on the screen of the mobile terminal 11, sothat he or she can try to walk toward the destination with the help ofthe map.

Thereafter, the user can input the safety confirmation information tothe mobile terminal 11 and transmits the input information (steps S110and S111). The safety confirmation information is transferred from thecenter apparatus 13 to the mobile terminal 18 as the contact point (stepS112).

The safety confirmation information may be binary information indicating“safe” or “not safe” or may be multivalued information indicating adetailed status such as “safe”, “minor injury”, or “severe injury”.Further, the safety confirmation information may include user's comment.Furthermore, the safety confirmation information may include not onlythe safety status of the user himself or herself, but also the safetystatus of family members or friends. Furthermore, information indicatingwhether houses or buildings have been collapsed or not may be included.

The safety confirmation information is transmitted by operation of theuser of the mobile terminal 11 rather than being transmittedautomatically by the mobile terminal 11. Thus, the safety confirmationinformation is generally transmitted after the user has ensured thesafety of himself or herself and has calmed down, that is, after elapseof about five minutes from the end of the earthquake. After elapse of acertain time from the end of the earthquake, many people start callingor emailing, and thus mobile-service providers previously restrictmobile phone lines so as to prevent their lines from being flooded.Thus, it is not actually possible to transmit the safety confirmationinformation over the mobile phone lines. However, if the mobile terminal11 has a wireless LAN function, the user can transmit the safetyconfirmation information not over the mobile phone lines but through theInternet 17 by using the wireless LAN function.

The safety confirmation information transmitted from the mobile terminal11 to center apparatus 13 can be confirmed on the personal computer 19through the Internet 17. More specifically, when a specified web site isaccessed from the personal computer 19 (step S113), HTML data includingthe safety confirmation information is transferred from the centerapparatus 13 to mobile terminal 11 (step S114), allowing the safetyconfirmation information to be confirmed on the personal computer 19.Since the transfer of the safety confirmation information to the mobileterminal 18 (step S112) cannot be made under a situation where thepublic communication lines are shut down or restricted, transfer of thesafety confirmation information through the Internet is very effective.

Thereafter, the center apparatus 13 can transmit e-mail to the mobileterminal 11 of a user whose safety has been confirmed based on thesafety confirmation information (step S115). This e-mail is, e.g.,business contact to be transmitted to gather staff for recovery of adisaster-stricken office. Thus, the e-mail is transmitted to a userwhose safety has been confirmed based on the safety confirmationinformation and who has been involved in the disaster at a placecomparatively close to his or her office.

Further, the above e-mail is preferably transmitted to a user whose homeis located comparatively close to his or her office. This is becauseeven if a user himself or herself is safe, it is difficult for him orher to get to the office in a situation where traffic is jammed. Thedistance between the house and office can be found by referring to theaddresses of the home and office that have been registered by the userof the mobile terminal 11 when he or she accesses the service for thefirst time. The center apparatus 13 transmits the addresses of the homeand office to the map server 14. The map server 14 calculates thedistance between the home and office and sends a result of thecalculation back to the center apparatus 13 as distance information. Thecenter apparatus 13 transmits the e-mail to the mobile terminal 11 of auser whose house is located within a certain linear distance from theoffice to ask for emergency attendance.

As described above, in the present embodiment, the mobile terminal 11sequentially and automatically performs a series of processes fromreception of the emergency earthquake alert to acquisition of the mapinformation without intervention of determination or operation of theuser. Therefore, the series of processes can be completed before (e.g.,within five minutes from the occurrence of the earthquake) thecommunication lines become busy.

Although the present invention has been described based on the preferredembodiment, the present invention is not limited to the above embodimentand various modifications may be made within the scope of the presentinvention. Accordingly, all such modifications are included in thepresent invention.

For example, the disaster information delivery apparatus 12 delivers theemergency earthquake alert as the disaster information in the aboveembodiment. However, the disaster information in the present inventionis not limited to the emergency earthquake alert, but may be variousinformation related to a disaster such as Tsunami warning, typhoonwarning, and information of fires.

Further, although the emergency earthquake alert is delivered only tothe mobile terminal 11 present within an area affected by the earthquakein the above embodiment, the present invention is not limited to this.For example, a configuration may be adopted in which the disasterinformation delivery apparatus 12 delivers the emergency earthquakealert to all the mobile phones 11 participating in the service, andindividual users of the mobile terminals 11 determine whether theirlocations are affected by the earthquake from the location information.

1-11. (canceled)
 12. A safety confirmation system comprising: a mobileterminal that receives early disaster information; a center apparatusthat manages a safety status of a user of the mobile terminal; and a mapserver that provides map information, wherein the mobile terminalincludes: a processor; a display; and a memory having a program, whenexecuted, causing the processor to perform the following processes: aregistration process to register destination information beforereceiving the early disaster information; and a post disaster processperformed responsive to the reception of the early disaster information,without intervention of a user of the mobile terminal, the post disasterprocess including: automatically acquiring current location information;automatically transmitting the current location information to thecenter apparatus and the map server, and automatically transmitting thedestination information to the map server; and receiving and storing mapinformation including a return route from the current location to thedestination for displaying the map information on the display, the mapserver includes: a return route search section that searches for areturn route from the current location to a destination based on thecurrent location information and destination information; a mapinformation generation section that generates the map informationincluding the return route; and a map information transmission sectionthat transmits the map information to the mobile terminal, and thecenter apparatus includes a location information reception section thatreceives the current location information transmitted from the mobileterminal.
 13. The safety confirmation system as claimed in claim 12,wherein the mobile terminal further includes: a safety confirmationinformation input section that receives an input of safety confirmationinformation after automatically transmitting the current locationinformation; and a safety confirmation information transmission sectionthat transmits the safety confirmation information to the centerapparatus, and the center apparatus further includes: a safetyconfirmation information reception section that receives the safetyconfirmation information; and a safety confirmation informationmanagement section that manages the safety confirmation information. 14.The safety confirmation system as claimed in claim 13, wherein thecenter apparatus receives the safety confirmation information from themobile terminal and transmits the safety confirmation information toanother mobile terminal.
 15. The safety confirmation system as claimedin claim 12, wherein the center apparatus further includes a locationinformation transmission section that automatically transmits, uponreceiving the current location information from the mobile terminal, thecurrent location information to another mobile terminal.
 16. A mobileterminal comprising: a processor; a display; and a memory having aprogram, when executed, causing the processor to perform the followingprocesses: a registration process to register destination informationbefore receiving early disaster information; and a post disaster processperformed responsive to the reception of the early disaster information,without intervention of a user of the mobile terminal, the post disasterprocess including: automatically acquiring current location information;automatically transmitting the current location information to a centerapparatus and a map server, and automatically transmitting thedestination information to the map server; and receiving and storing mapinformation including a return route from a current location to adestination for displaying the map information on the display.
 17. Themobile terminal as claimed in claim 16 further comprising: a safetyconfirmation information input section that receives an input of safetyconfirmation information after automatically transmitting the currentlocation information; and a safety confirmation information transmissionsection that transmits the safety confirmation information to the centerapparatus.
 18. A safety confirmation method executed by a mobileterminal having an early disaster information reception function and alocation information acquisition function, the method including thesteps of: registering destination information before receiving earlydisaster information; automatically acquiring current locationinformation; automatically transmitting the current location informationto a center apparatus and a map server, and automatically transmittingthe destination information to the map server; and receiving and storingmap information including a return route from the current location tothe destination for displaying the map information.
 19. The safetyconfirmation method as claimed in claim 18 further including the stepsof: receiving an input of safety confirmation information afterautomatically transmitting the current location information; andtransmitting the safety confirmation information to the centerapparatus.